‎[RS]VDUB-TRENDMASTER IV V0.01‎ — מתנד מאת ‎RicardoSantos‎

Concept by vdubus.
Fixed a missing option on the macd inputs, added option to toggle visual style(toggle box)

סקריפט קוד פתוח

ברוח TradingView אמיתית, מחבר הסקריפט הזה פרסם אותו בקוד פתוח, כך שסוחרים יכולים להבין ולאמת אותו. כל הכבוד למחבר! אתה יכול להשתמש בו בחינם, אך שימוש חוזר בקוד זה בפרסום כפוף לכללי הבית. אתה יכול להכניס אותו למועדפים כדי להשתמש בו בגרף.

כתב ויתור

המידע והפרסומים אינם אמורים להיות, ואינם מהווים, עצות פיננסיות, השקעות, מסחר או סוגים אחרים של עצות או המלצות שסופקו או מאושרים על ידי TradingView. קרא עוד בתנאים וההגבלות.

רוצה להשתמש בסקריפ זה בגרף?

study(title="[RS]VDUB-TRENDMASTER IV V0.01", overlay=false)
//  ||-->   Concept vdubus, Code RicardoSantos. <-------------------------------------------------------------------------------------------------------||
//  ||--------------------------------------------------------------------------------------------------------------------------------------------------||
//  ||-->   Input:  <-----------------------------------------------------------------------------------------------------------------------------------||
//  ||--------------------------------------------------------------------------------------------------------------------------------------------------||
_Type = input(defval=0, minval=0, maxval=2, title='0: Crossover, 1: MACD, 2: STOCH')
_NOTE0 = input(false, title='0: SMA, 1: WMA, 2: EMA, 3: Kijun-Sen(Base), 4: Tenkan-Sen(Conversion), 5: Senkou Span A(Leading A), 6: Senkou Span B(Leading B).')
_A = input(defval=0, minval=0, maxval=6, title='Input A for Crossover:')
_B = input(defval=0, minval=0, maxval=6, title='Input B for Crossover:')
_SRC_A = input(close, type=source, title='Source For Series A:')
_SRC_B = input(close, type=source, title='Source For Series B:')
//  ||--------------------------------------------------------------------------------------------------------------------------------------------------||
//  ||-->   SMA, EMA, WMA Inputs:  <--------------------------------------------------------------------------------------------------------------------||
//  ||--------------------------------------------------------------------------------------------------------------------------------------------------||
_MA_A_Length = input(12, title='Moving Average A Length:')
_MA_B_Length = input(24, title='Moving Average B Length:')
//  ||--------------------------------------------------------------------------------------------------------------------------------------------------||
//  ||-->   Ichimoku cloud  <---------------------------------------------------------------------------------------------------------------------------||
//  ||--------------------------------------------------------------------------------------------------------------------------------------------------||
IC_A_conversionPeriods = input(34, title='Ichimoku Cloud A - Conversion Period:')
IC_A_basePeriods = input(26, title='Ichimoku Cloud A - Base Period:')
IC_A_laggingSpan2Periods = input(52, title='Ichimoku Cloud A - Lagging Span:')
IC_A_displacement = input(26, title='Ichimoku Cloud A - Displacement:')
IC_B_conversionPeriods = input(34, title='Ichimoku Cloud B - Conversion Period:')
IC_B_basePeriods = input(26, title='Ichimoku Cloud B - Base Period:')
IC_B_laggingSpan2Periods = input(52, title='Ichimoku Cloud B - Lagging Span:')
IC_B_displacement = input(26, title='Ichimoku Cloud B - Displacement:')
//  ||-->   Functions:  <-------------------------------------------------------------------------------------------------------------------------------||
donchian(len) => avg(lowest(len), highest(len))
leadLine1(_conversionPeriods, _basePeriods)=>
    _conversionLine = donchian(_conversionPeriods)
    _baseLine = donchian(_basePeriods)
    avg(_conversionLine, _baseLine)
//  ||--------------------------------------------------------------------------------------------------------------------------------------------------||
//  ||-->   MACD  <-------------------------------------------------------------------------------------------------------------------------------------||
//  ||--------------------------------------------------------------------------------------------------------------------------------------------------||
_MACD_K = input(21)
_MACD_D = input(34)
_MACD_I = input(2)
//  ||-->   Functions:  <-------------------------------------------------------------------------------------------------------------------------------||
_MACD_FAST()=>
    [_fast, _, _] = macd(_SRC_A, _MACD_K, _MACD_D, _MACD_I)
    _fast
_MACD_SLOW()=>
    [_, _slow, _] = macd(_SRC_B, _MACD_K, _MACD_D, _MACD_I)
    _slow
//  ||--------------------------------------------------------------------------------------------------------------------------------------------------||
//  ||-->   STOCH  <------------------------------------------------------------------------------------------------------------------------------------||
//  ||--------------------------------------------------------------------------------------------------------------------------------------------------||
_STOCH_Length = input(14)
_STOCH_K = input(2)
_STOCH_D = input(4)
//  ||--------------------------------------------------------------------------------------------------------------------------------------------------||
//  ||-->   Output:  <----------------------------------------------------------------------------------------------------------------------------------||
//  ||--------------------------------------------------------------------------------------------------------------------------------------------------||
CrossOverA = _Type == 0 and _A == 0 ? sma(_SRC_A, _MA_A_Length) :
        _Type == 0 and _A == 1 ? wma(_SRC_A, _MA_A_Length) :
        _Type == 0 and _A == 2 ? ema(_SRC_A, _MA_A_Length) :
        _Type == 0 and _A == 3 ? donchian(IC_A_basePeriods) :                            // Ichimoku Baseline
        _Type == 0 and _A == 4 ? donchian(IC_A_conversionPeriods) :                      // Ichimoku Conversion
        _Type == 0 and _A == 5 ? leadLine1(IC_A_conversionPeriods, IC_A_basePeriods) :   // Ichimoku leading A
        _Type == 0 and _A == 6 ? donchian(IC_A_laggingSpan2Periods) :                    // Ichimoku leading B
        _Type == 1 ? _MACD_FAST() :
        _Type == 2 ? sma(stoch(_SRC_A, high, low, _STOCH_Length), _STOCH_K) :
        na

CrossOverB = _Type == 0 and _B == 0 ? sma(_SRC_B, _MA_B_Length) :
        _Type == 0 and _B == 1 ? wma(_SRC_B, _MA_B_Length) :
        _Type == 0 and _B == 2 ? ema(_SRC_B, _MA_B_Length) :
        _Type == 0 and _B == 3 ? donchian(IC_B_basePeriods) :                            // Ichimoku Baseline
        _Type == 0 and _B == 4 ? donchian(IC_B_conversionPeriods) :                      // Ichimoku Conversion
        _Type == 0 and _B == 5 ? leadLine1(IC_B_conversionPeriods, IC_A_basePeriods) :   // Ichimoku leading A
        _Type == 0 and _B == 6 ? donchian(IC_B_laggingSpan2Periods) :                    // Ichimoku leading B
        _Type == 1 ? _MACD_SLOW() :
        _Type == 2 ? sma(stoch(_SRC_B, high, low, _STOCH_Length), _STOCH_D) :
        na

OutputSignal = CrossOverA >= CrossOverB ? 1 : 0
plot(_NOTE0 ? 1 : (OutputSignal>0?1:-1), title='Trend Master IV - Signal', style=columns, color=OutputSignal>0?gray:red, transp=25)